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Monosomy X (monosomy + x)

Distribution by Scientific Domains
Life Sciences75%

Selected Abstracts

Congenital Cardiovascular Disease in Turner Syndrome

CONGENITAL HEART DISEASE, Issue 1 2008
Carolyn A. Bondy MD
ABSTRACT Turner syndrome (TS), or monosomy X, occurs in ,1/2000 live born females. Intelligence is normal and short stature is the most obvious and consistent feature of the syndrome. Congenital cardiovascular disease affects ,50% of individuals and is the major cause of premature mortality in adults. Unfortunately, this most important aspect of the syndrome has received little attention outside of pediatric medicine, and adult cardiological follow-up is seriously lacking. This review describes the spectrum of cardiovascular defects with particular attention to identifying risk factors for aortic dissection/rupture. X-chromosome genetic pathways implicated in Turner cardiovascular disease, including premature coronary artery disease, are discussed. Recent guidelines for diagnosis and treatment of girls and women with TS are reviewed. [source]

Cystic hygroma and omphalocele at 11 weeks in a fetus with monosomy X

PRENATAL DIAGNOSIS, Issue 4 2006
Israel Goldstein
No abstract is available for this article. [source]

Cytogenetic analysis of trophoblasts by comparative genomic hybridization in embryo-fetal development anomalies

PRENATAL DIAGNOSIS, Issue 8 2001
A. C. Tabet
Abstract Cytogenetic studies of spontaneous abortions or intrauterine fetal death depend on conventional tissue culturing and karyotyping. This technique has limitations such as culture failure and selective growth of maternal cells. Fluorescent in situ hybridization (FISH) using specific probes permits diagnosis of aneuploidies but is limited to one or a few chromosomal regions. Comparative genomic hybridization (CGH) provides an overview of chromosomal gains and losses in a single hybridization directly from DNA samples. In a prospective study, we analyzed by CGH trophoblast cells from 21 fetuses in cases of spontaneous abortions, intrauterine fetal death or polymalformed syndrome. Six numerical chromosomal abnormalities including one trisomy 7, one trisomy 10, three trisomies 18, one trisomy 21 and one monosomy X have been correctly identified by CGH. One structural abnormality of the long arm of chromosome 1 has been characterized by CGH. One triploidy and two balanced pericentromeric inversions of chromosome 9 have not been identified by CGH. Sexual chromosomal constitutions were concordant by both classical cytogenetic technique and CGH. Contribution of trophoblast analysis by CGH in embryo-fetal development anomalies is discussed. Copyright © 2001 John Wiley & Sons, Ltd. [source]

Hypoplastic left heart in a female infant with partial trisomy 4q due to de novo 4;21 translocation

AMERICAN JOURNAL OF MEDICAL GENETICS, Issue 4 2002
Milen Velinov
Abstract We present a female infant with mild dysmorphic features and congenital heart defect: hypoplastic left heart with aortic atresia and hypoplastic aortic arch, ventricular septal defect, and a nonrestrictive atrial communication. Chromosome analysis showed an unbalanced translocation that contained additional material from 4q translocated onto 21q. This resulted in partial trisomy 4 and monosomy for the 21q telomeric region. The derivative chromosome was characterized using G-banding, M-FISH, and whole chromosome painting. The karyotype was described as 46,XX,der(21)t(4;21)(q25;q22.3).ish(wcp4+;wcp21+). Additional analyses with FISH probes specific for 21q 22.3, 21q22.2, 21q21.1, and 21q11.2 did not indicate any chromosome 21 duplication within the derivative chromosome 21. Monosomy for the telomeric portion of 21q was demonstrated using a tel 21q probe (Oncor). The patient underwent stage 1 Norwood procedure to manage her heart defect. Poor feeding and failure to thrive complicated the postsurgical period. The child subsequently underwent funduplication and feeding tube placement, and at 4.5 months of age presented with microcephaly and developmental delay. Hypoplastic left heart was previously reported with increased frequency in relatively common numeric chromosomal aberrations, such as monosomy X, trisomies 21, 18, and 13, and in various structural chromosomal defects. Our report presents new evidence for the co-occurrence of hypoplastic left heart with a duplicated portion of chromosome 4 distal to 4q25. In addition, monosomy for the telomeric region of chromosome 21 may have implications in the phenotype. © 2001 Wiley-Liss, Inc. [source]